/**
* Assuming a.type is either the numerator.type or denominator.type in
* the price equation, return the number of the other asset type that
* could be exchanged at price p.
*
* ie: p = 3 usd/bts & a = 4 bts then result = 12 usd
* ie: p = 3 usd/bts & a = 4 usd then result = 1.333 bts
*/
asset operator * ( const asset& a, const price& p )
{
try {
if( a.asset_id == p.base_asset_id )
{
fc::bigint ba( a.amount ); // 64.64
fc::bigint r( p.ratio ); // 64.64
auto amnt = ba * r; // 128.128
amnt /= BTS_PRICE_PRECISION; // 128.64
auto lg2 = amnt.log2();
if( lg2 >= 128 )
{
FC_THROW_EXCEPTION( addition_overflow, "overflow ${a} * ${p}", ("a",a)("p",p) );
}
asset rtn;
rtn.amount = amnt.to_int64();
rtn.asset_id = p.quote_asset_id;
ilog( "${a} * ${p} => ${rtn}", ("a", a)("p",p )("rtn",rtn) );
return rtn;
}
else if( a.asset_id == p.quote_asset_id )
{
fc::bigint amt( a.amount ); // 64.64
amt *= BTS_PRICE_PRECISION; //<<= 64; // 64.128
fc::bigint pri( p.ratio ); // 64.64
auto result = amt / pri; // 64.64
// ilog( "amt: ${amt} / ${pri}", ("amt",string(amt))("pri",string(pri) ) );
// ilog( "${r}", ("r",string(result) ) );
auto lg2 = result.log2();
if( lg2 >= 128 )
{
// wlog( "." );
FC_THROW_EXCEPTION( addition_overflow,
"overflow ${a} / ${p} = ${r} lg2 = ${l}",
("a",a)("p",p)("r", std::string(result) )("l",lg2) );
}
// result += 5000000000; // TODO: evaluate this rounding factor..
asset r;
r.amount = result.to_int64();
r.asset_id = p.base_asset_id;
ilog( "r.amount = ${r}", ("r",r.amount) );
ilog( "${a} * ${p} => ${rtn}", ("a", a)("p",p )("rtn",r) );
return r;
}
FC_THROW_EXCEPTION( asset_type_mismatch, "type mismatch multiplying asset ${a} by price ${p}",
("a",a)("p",p) );
} FC_RETHROW_EXCEPTIONS( warn, "type mismatch multiplying asset ${a} by price ${p}",
("a",a)("p",p) );
}
static inline boost::int64_t to_int64(T1 high, T2 mid1, T3 mid2, T4 mid3, T5 mid4, T6 mid5, T7 mid6, T8 low) {
return to_int64(static_cast<unsigned char>(high),
static_cast<unsigned char>(mid1),
static_cast<unsigned char>(mid2),
static_cast<unsigned char>(mid3),
static_cast<unsigned char>(mid4),
static_cast<unsigned char>(mid5),
static_cast<unsigned char>(mid6),
static_cast<unsigned char>(low));
}
uint64_t difficulty( const fc::sha224& hash_value )
{
if( hash_value == fc::sha224() ) return uint64_t(-1); // div by 0
auto dif = max224() / fc::bigint( (char*)&hash_value, sizeof(hash_value) );
int64_t tmp = dif.to_int64();
// possible if hash_value starts with 1
if( tmp < 0 ) tmp = 0;
return tmp;
}
int64_t variant::as_int64()const
{
switch( get_type() )
{
case string_type:
return to_int64(**reinterpret_cast<const const_string_ptr*>(this));
case double_type:
return int64_t(*reinterpret_cast<const double*>(this));
case int64_type:
return *reinterpret_cast<const int64_t*>(this);
case uint64_type:
return int64_t(*reinterpret_cast<const uint64_t*>(this));
case bool_type:
return *reinterpret_cast<const bool*>(this);
case null_type:
return 0;
default:
FC_THROW_EXCEPTION( bad_cast_exception, "Invalid cast from ${type} to int64", ("type", get_type()) );
}
}
variant number_from_stream( T& in )
{
fc::stringstream ss;
bool dot = false;
bool neg = false;
if( in.peek() == '-')
{
neg = true;
ss.put( in.get() );
}
bool done = false;
try
{
char c;
while((c = in.peek()) && !done)
{
switch( c )
{
case '.':
if (dot)
FC_THROW_EXCEPTION(parse_error_exception, "Can't parse a number with two decimal places");
dot = true;
FALLTHROUGH
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
ss.put( in.get() );
break;
default:
if( isalnum( c ) )
{
return ss.str() + stringFromToken( in );
}
done = true;
break;
}
}
}
catch (fc::eof_exception&)
{ // EOF ends the loop
}
catch (const std::ios_base::failure&)
{ // read error ends the loop
}
std::string str = ss.str();
if (str == "-." || str == "." || str == "-") // check the obviously wrong things we could have encountered
FC_THROW_EXCEPTION(parse_error_exception, "Can't parse token \"${token}\" as a JSON numeric constant", ("token", str));
if( dot )
return
#ifdef WITH_EXOTIC_JSON_PARSERS
parser_type == json::legacy_parser_with_string_doubles ? variant(str) :
#endif
variant(to_double(str));
if( neg )
return to_int64(str);
return to_uint64(str);
}
inline bool to_int64(string const & s, int64_t & i) { return to_int64(s.c_str(), i); }
inline bool is_number(string const & s) { int64_t dummy; return to_int64(s.c_str(), dummy); }
constexpr
#endif
uint64_t to_int64(const char (&a)[N]) {
return to_int64(a, N-1);
}
/// Convert a string to an integer value
/// \code
/// std::cout << to_int64("\1\2") << std::endl;
/// output: 258 // I.e. (1 << 8 | 2)
/// \endcode
constexpr uint64_t to_int64(const char* a_str, size_t sz) {
return sz ? (to_int64(a_str, sz-1) << 8 | (uint8_t)a_str[sz-1]) : 0;
}
static inline boost::int64_t to_int64(const Byte *buf) {
return to_int64(buf[0], buf[1], buf[2], buf[3], buf[4], buf[5], buf[6], buf[7]);
}
column::operator int64_t() const
{
return to_int64();
}
